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I plan to use it to drive a multi- stator and multi- rotor PMA. I will use a Buck converter to reduce the (I squared R) loss at the stator. I will adjust the perimeters until it generates more electricity then it is uses to operate. Not OU. Thank you for posting your project.

I plan to use it to drive a multi- stator and multi- rotor PMA. I will use a Buck converter to reduce the (I squared R) loss at the stator. I will adjust the perimeters until it generates more electricity then it is uses to operate. Not OU. Thank you for posting your project.

That's great!I wish you success.Are you aware of the further torque improvement the mostly magnet motor design can achieve without any more power input?Did you see the Super build of it?

Over five years ago I came up with a unique linear motor design where a coil moves on a steel core between two opposing permanent magnets.

The benefits I found in this design are: 1. The stronger the magnets and the more core surface area, the stronger the push or pull gram force is. 2. The design has no magnet cogging as the cores and magnets don't move. 3. The coils Inductance has next to no change as it moves since it never leaves the core. 4. If designed correctly the coils push or pull gram force is equal throughout the travel stroke.5. Compared to a standard solenoid my design uses a fraction of the input power, so it can be continuously operated 24/7. A standard solenoid would catch on fire if it tried to continuously push or pull what my design can do. 6. My design offers huge travel distances compared to a standard solenoid. 7. It can be made to travel a 1/4 inch to 4 inches or more if needed while maintaining the same gram force throughout the stroke.

As you can see I'm demonstrating that the pull gram force can be increased by the force of the permanent magnet without increasing the input power. Note that test no.1 has 1.2 watt input and test no.2 has 0.43 watt input which is a 65% reduction in input power but still has double the gram pull force. Test no.3 has 5 times the gram pull force of test no.2 using the same input power since the core and magnet surface area is 8 times wider.So obviously not just the force of the magnet can play a part but more core and magnet surface area also increases the push or pull gram force.

This is what I've been trying to demonstrate in a nutshell. However, since this is the Overunity Forum people here are mostly interested in OU possibility rather then an innovation.So to please everyone I did tests to see if the super build could have OU potential even though I knew it would not since the design also suffers of the generator effect as the coil moves in the permanent magnet field. Since it can only move at a certain speed because the coil generates power as it moves, it fights the input power which is coming in the same direction, so we cannot beat the laws of physics here.

The MMM can be designed to travel efficiently at any distance if you have the money or supplies to build it correctly.The length and height of your coil determines the maximum travel length and diameter of your center core.

For example: A 6 inch long coil wound 1 inch thick can efficiently travel 6 inches in each direction on a 1 inch dia. core that is 12 inches long. A 12 inch long coil wound 2 inch thick can efficiently travel 12 inches in each direction on a 2 inch dia. core that is 24 inches long.If your coil is 4 inches long and you're trying to get it to travel 8 inches in each direction on a 16 inch long core then you reduce the MMM push/pull force by half. So not efficient, no matter how many magnets you add.

If you follow the above example then you'll get the best results. And if you also include an outer core which takes advantage of both poles of the magnets like I have demonstrated in my videos, then you'll double the push/pull force with the same input power.Obviously the stronger the magnets are and the more core and coil surface area there is the stronger the push/pull fore will be and without an increase in input power.However, keep in mind that generator effect (CEMF) also increases with the above which I've also tested and confirmed in a video demo which confirms the MMM is an under unity device. I would think it may be as efficient to use an off the shelf geared motor and attach a crank shaft if you're needing a back and forth linear motion.Hope this helpsAll the best in your experimentsLuc

Hi, I may have found a way to increase stroke length of the MMM. additional magnet sets could be placed in the iron core, the coil could be pulsed every time it reaches a new set of magnets. comments welcome